Apparatus for carbonating water



i NOV. 28, 1939. I l T. ROWELL *2,181,768

APPARATUS FOR CARBONATING WATER Filed Sept. 9, '1935 6 Sheets-Sheet l ATTORNEY.:

Nav. 2s, 1939.

0 oooo. oooov -ooo'ooo J,'T. Rowr-LL APPARATUS FOR CARBONATING WATER Filed'sept. 9,1935` -'-6'snets-sneet 2- O O O O O O O O O O G O O O O f77/Mahon! ATTORNEY! I 'my fwe ff J. T. -RowELL i 2,181,768

APPARATUS FOR CARBONATING WATER Filed Sept. 9', 1935 6 Sheets-Sheet 3 i INVENTOR.

ATTORNEYJv Nov. 2 8, 1939. J. T. RowELL 2,181,758

APPARATUS FOR GARBONATING WATER Filed Sept. 9, 1935 6 Sheets-Sheet 4 Wp-rz( x MW( ATTORNEYS RQ m \NQ m ,mw ww n@ im A E ww mw l- M I M .mm w A@ mm Mv w .www w A S o M .0,

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Nov. 28', 1939. .1.1. RwifzLl. l 2,181,758

l APPARATUS FOR CAONATING 'WATER v f Filed hsept. 9,- 1935 6 sheets-sheet 5 ATTORNEY5 Nov. 28, 1939. J. T. RowELL APARATUS FOR CARBONATING vWATER e sheets-sheet e Filed Sept. 9, 193i.

y ATTORNEY! Patented Nov. 28, 1939 A PATENT `ori-"ieri 2,181,768 APPARATUS Foa CARBONATING WATER John T. lRowell, Cincinnati, Ohio,

The Bock Machine Company, Cincinnati,

a corporation of Ohio assigner to Ohio,

Application September 9, 1935, Serial No. 39,669 9 Claims. (Cl. 261-93) This invention relates to apparatus for carbonating water.

It has been the object of the inventor to provide an apparatus for the purpose of carbonating water, in which the water is impregnated withA the maximum amount of gas which it is capable of retaining at any predetermined pressure and at the prevailing temperature. There are incorporated as parts of the apparatus a water inlet control and\a gas inlet control, each of which controls may be independent Vof the other. The purpose of the water inlet control is to admit the water periodically for maintenance of the water level. The inlet of gas is controlled by the pressure of the gas above the water. The gas pressure above the water is developed by excess gas over and above that which the water is capable of retaining. In this connectionan agitator is used, the operation of which is caused by loweringof gas pressure.y As long as the water will continue to absorb gas, the pressure will not rise. to line pressure in the space above the water and the agitator will continue to agitate the water and mix it with` the gas' to cause impregnation thereof. As soon as the gas pressure above the water reaches line pressure approximately the agitation is discontinued.

' The invention achieves maximum impregnation of the water with the gas after each drink is Withdrawn from the `apparatus since it is necessary that the water reach maximum saturation before the agitation will be stopped.`

It is a further object of this invention to provide an improved and highly sensitive control unit for the purpose of permitting supply of gas to the carbonating chamber and at the same time to cause operation of the agitating means when the gas pressure. above the water drops below a predetermined pressure This unit is highly emcient and unagcted by the fact that it is electrically opera-td in the presence of water, which fact normally tends to lower the eiciency of control units of this type. In a more speciiic sense the control unit may embody a mercury switch, which switch is acted upon by a diaphragm control movement located between the constant pressure chamber of the supply and the variable pressure chamber in connection with the carbonating tank. The invention therefore further resides in the provision of an efficient sealing means for the mercury switch, whereby, despite its association with moisture and despite the fact that electricity must be conducted thereto through the walls of the chamber housing the same, the device is unaffected an d its eiiiciency is maintained. f

Other objects and further advantages will be more fully apparent from a description of the accompanying drawings, in which;

Figure 1 is a front view of the carbonating, mixing and dispensing machine of the present invention.

Figure 2 is a sectional view taken on line 2--2, Fig. l, illustrating the mechanism within the cabinet of the machine. l

Figure 3 is a sectional view taken on line 3-3, Fig. 1, further illustrating the mechanism within the cabinet. i

Figure 4,is a top plan view of the carbonating tank.

Figure 5 is a sectional View taken on line 5 5, Fig. 4, detailing the water and gas inlets to the cabona'ting tank and the agitating means associated therewith.

Figure 6 is a sectional view taken on line 6-6, Fig. 5, detailing the connection of the con trol float to the water inlet control valve.

Figure 'l is a. fragmentary and partial sectional view taken horizontally, illustrating the pressure operated gas inlet control device.

Figure 8 is a sectional view taken on line 8'-8, Fig. 7, further illustrating the control device.

Figure 9 is a sectional view taken on line 9 9, Fig. '7, illustrating the check valve at the gas in- 30 take for the pressure operated gas inlet control device. y

y Figure 10 is a fragmentary sectional view taken on line ID--IIL-Fig. 1, illustrating one of the mixing and dispensing devices embodied in the machine Figure 11 is a sectional view taken on line Il`-'II, Fig. 10, showing in enlarged detail the spigot mechanism for admitting the carbonated water to the mixing chamber.

Figure 12 is a sectional view taken on line I2l2, Fig. 10, illustrating, in enlarged detail,` the connection of the spigot handle to the valve operating rod.

Figure 13 is a'fragmentary sectional view en- 45 larged out of Figure 10, detailing the adjustable but illustrating the spigot in position after having delivered a quantity or charge'of syrup sumcient for a drink, the delivery mechanism still in position for delivering carbonated water.

Figure 17 is a diagrammatic view illustrating the water, gas, and lelectric circuits involved in A the apparatus.

In the present disclosure of the invention, a cabinet 20 is'provided, housing preferably all oi? the units with the exception of the gas pressure operated control device 2l for the agitator means I9. The cabinet structure provides a plurality of taps or faucets 22, each of which is designed to draw off a particular beverage or ilavored drink. The apparatus within the container provides a carbonating unit 23,\a plurality of syrup tanks .or reservoirs 24 each having a faucet 22, and a dispensing unit 25 for each syrup tank including a measuring chamber and device 26, and a mixing chamber 21 from which the compounded beverage is delivered through the particular faucet or cock.

A water supply conduit 28 and a gas supply conduit 29 extend to the carbonating unit 23.

' The gas supply is provided by way of the gas pressure operated control device 2i for the agi-Y tator means. This control device includes a switch in electric circuit with the electric motor driving the'agitator means, the switch, being diaphragm operated, depending on gas pressure iluctuation. The pressure on the intake side of the diaphragm is constant since thevgas pressure is supplied from a carbonio gas supply tank 30. 'Ihe other side of the diaphragm is in communication with the region over the oat controlled water in the carbonating tank and the pressure therein, normally the same as that onv the supply side, varies or drops as there is withdrawal of carbonated water. The cut-oi or stopping of the agitator means occurs when the water has absorbed all the gas which it can contain, at which time the pressure above the water rises and the switch acts to stop the motor by. equalization of the pressures on the respective sides of the diaphragm.

More specically, the cabinet structure is composite being fabricated .of wood, metal, and cork. It is believed unnecessary to describe the exact structural details of the cabinet except to say that inner and outer linings of metal are provided ,with

heavy slabs of cork therebetween providing an insulated chamber in which ice may be packed for cooling the ingredients of the beverage to be dispensed. At this point it may be stated that carbonation takes place best under cooled conditions, that is to say, the water will absorb more gas when its temperature is 10W.

The composite frame structure is provided with legs 3| and incorporates a removable top 32. As

shown in Figures 1, 2, and 3, wood uprights 33 and cross pieces 34 are incorporated for strengthening and rigidifying the cabinet structure.

'I'he carbonating tank is mounted on anglev iron brackets 35 secured to the i-loor 36 of the cabinet. The position of the-carbonating tank 23 is substantially in the center of the cabinet. 'I'he water intake is by way of the pipe 28 entering the cabinet through the bottom thereof. A coupler 31 is provided at the point of entry into the cabinet, whereby the pipe may be in sections respectively above and below the cabinet oor. A cooling coil unit 38, lying in horizontal position, is secured to the iloor of the cabinet. The coil conl sists of headers 39 and a series of connecter pipes vns 40 betwen the headers. The intake pipe 28 is connected to one end header 39 of the unit. 'I'he 39 of the unit andv extends to the top of the carbonating tank.

'I'he upper end of the carbonating tank is detailed in Figures 4 and 5. All of the connections and operating mechanisms within the carbonating tank are suspended from a removable top i2 thereof. A heavy boss 43 is provided in the closure or top element toward one end thereof. This boss projects upwardly from the plane of the top. 'I'he boss includes three chambers, all of which are cylindrical and have their axes vertically disposed. The first of these chambers, namely 44, is the largest and is the water iilte'ring chamber. It has a closed lower end and incorporates a central boss 44a supporting a cup-shaped screen elel ment 45. A top closure 46 is `provided for this y ltering chamber, the water inlet pipe 4l being connected to an intake passageway 41 extending through the closure or cap element into the 'ltering chamber. 'I'his closure element includes an annular ange or cylindrical extension 48 down'- wardly disposed therefrom, the cup-shaped s'creerr having its upper edge margin disposed about this chambers, namely the valve chamber 55. TheY water inlet valve 5i is oat controlled. The valve' element consists of a plug 52 slidably mounted in the vertical bore of the chamber. l A leather seating disc 53 is xed on the upper.l end of the plug. A disc retaining sleeve 54, screwed. on the upper end of the plug and havingan annular ange, overhangs the margin yof the disc and holds it in place. The sleeve is of substantial length and provides the sliding Portion of the valve. The bore in which this valve 5l slides includes longitudinal slots 55 for the passage ofv water, these slots extending above and below the plug and providing entry into the carbonating chamber.

The valve operates in relation to a seat 55 which isin the nature oi' a tube, of slightly less diameter than that oi the packing disc, having an attaching flange or headlying on a shoulder of the valve bore formed by counterturning. This seat element is secured in position on the shoulder by means of a screw-threaded disc 51. This disc 51 is disposed below the radial passageway 49 entering the valve bore from the water filtering bore or chamber. Longitudinal passageways 58 in the disc enter a concavity on the underside of the plug, which concavity communicates with` the tubular seating element. Accordingly the water is free to pass through theseparts to the top ol the plug and when the plug is away from the lower end of the tubular valve seating element it may thenpass into the carbonating chamber.

A cork oat 59 is provided for controlling the valve 5I. The oat consists'of a nat slab of cork horizontally disposed. -The float structure includes arms 60 on the outer ends of which the 'slab is mounted. These arms extend generally parallel and approach each other at the pivot rods. The ends of these arms 60 are pivotally mounted on a cross pin 6I between the valve and 4the oat. 'I'his supportingor pivoting pin 6| is secured in the side arms of achannel-shaped bracket element 62 secured to the underside of the top of the tank by means of screws 63. The

channel-shaped support bracket includes an aperture 64 about the plugJproviding ample clearance for the passage of water from the valve bore.

A pin 65 connects the outer ends of the arms 75 .A v 2,181,768 90. Another pin- BG between the pivot'pin 6| and the -iloat 59 extends between the arms and through one end of a valve contact lever 61. This lever is in constant engagement. with the lower rounded end of the valve plug 5| intermediate the ends of the lever. A pivot pin 68 for this lever is xed between the arms of the channelvshaped bracket 62 and traverses a slot 69 cut into taining the lever in centralized position for positive engagement with-the end of the valve plug.

The previously mentioned pivot pin 6| for the arms of the iioat extending through all of the parts, traverses a large clearance opening 10 in the lever. The relationship of the last named pin and the aperture in the lever is such as to permit appropriate float induced movement of the lever, but at the same time limit the movement of the float.

It will beapparent that, as the float moves down pivoting on its pivot rod 6|, this movement is conveyed to the valve control contact lever 61 through the oltennost pin 66, thus swinging the valve control lever downwardly on its pivot pin 68. 'Ihis permits downward and opening movement of the valve; A very delicate valve movement is thus achieved so that reiilling of the tank occurs periodically as the Water level tends to drop.

The third chamber, namely, 1|, incorporated in the closure, includes a safety valve 12 permitting release of gas in the gas chamber at the top of the carbonating tank in the event of excessive pressure. This valve can be of any standard construction and for this reason is not described in detail. Its principal. elements consist of a fixed v tube 13 communicating with the carbonating tank, a spring pressed valve 14 of disc form engaged on the upper end of the tube, and an outlet port 15 extending laterally from the region adjacent the contacting surfaces of the valve and seat.

The agitator unit I9 is also mounted on the closure means or top plate 42 of the carbonating tank. An electric motor 1S, having its shaft 11 disposed vertically, is secured to the top surface of the closure plate by means of screws 18, drawing the legs 19 of the motor assembly down onto the closure. 'Ihe shaft of the motor extends through a removable bearing or bracket oi the cover for the carbonating tank through a suitable gland 8|. The gland 8| consists of a plurality of leather discs 82 compressed about the motor shaft by means of a packing gland screw 93 surrounding the motor shaft. 'I'he packing is contained in the bore of the bearing 80 depending from the closure or carbonating tank cover 42. Since a portion of the packing is disposed below the normal level of the water there is no opportunity for escape -of gas along the motor shaft.

A rotary agitator element 84, including elevatig blades or vanes 85, is secured to the lower end openings open into the gas chamber above the water. Thus it will be observed that the action of the agitator means is to draw the water upwardly through the cylinder and eject it violently and under considerable -pressure through the openings, spraying it in every direction throughout the gas filled chamber. The water thus becomes thoroughly impregnated with the gas. This action continues as will be brought out later until the wat ,-r has absorbed the maximum amount of gas which it is capable of carrying.

The gas inlet B8 is at the opposite end of the cover from the water inlet. An angular nipple 89 is screwed into the end of the cover and enters the inlet bore 88 which has an angular extension entering the upper part of the carbonating tank. As shown in the diagrammatic view, the carbonio gas is supplied from a standard tank 30 by way of the piping 29 to the nipple 89 mentioned heretofore.

gas pressure operated agitator control device .2| is embodied. This device isv detailed in Figures 7 to 9 inclusive, and is preferably attached to the underside of the cabinet where it is not in the presence of the liquids in the cabinet.

The body of the unit 2i is in two parts. One of these, namely 92, is cup-shaped and the other, namely 93, constitutes the cover for the first. Suitable packing 94 is provided between the cover and main casing element. The cover is held in position by means of screws 95 passing through lugs 96 in' the cup-shaped casing element and entering the cover.

A bored lug 91 is provided at one side' of the casing. The bore is counterbored to provide a shoulder 98.

A coupling element 99 is fixed on the end of the .tube 29 extending to the supply tank. This coupling element 99 incorporates an annular iiange A rubber check valve element |02 is secured against the annular flange and Within the annular groove. The rubber element is bellshaped and 'has an annular ange |03 corresponding to that of the coupling element 99. The rubber flange bears against the shoulder 99, formed by the counterbore, and is held thereagainst by means of a, packing screw |00 surrounding the coupling element 99 screwed into the boss and engaging the flange |00 of the coupling element. l The check valve or bell-shaped rubber element |02 extends sufficiently beyond the inner end of the coupling element to provide a chamber I 05 in communication with the pipe. The mouth of the check valve is constituted by a iiattened portion including a slot |06. The rubber will expand upon the admission of gas to its interior, opening the slot and permitting iiow of gasto the interior of the control unit. Back iiow cannot occur since the bell-shaped element collapses upon failure of pressure within the same, the slot closing and prohibiting back flow.v

. As heretofore stated, a mercury switch |01 is used for controlling the motor. The leads |08 i by the counterbore. A anged nipple element projects into the tube and hes against the flanged end thereof. A packing screw ||4 holdsthese parts in position against the shoulder 5 Ihe details of the mercury switch are not shown since the conventional unit is employed. The sheathing of the leads and entire mercury switch in the rubber casing or covering |09 is a feature of this invention and is, therefore, fully 10 described.

The mercury switch element proper, which is, of course, glass with suitable contacts and mercury within the same, is inserted in the enlarged open end of the tube. 'Ihis tube end is inclusive of a cup piece ||5 split soV as to conform to the contour of the switch tube end when in position. 'I'he tube is sealed by means of this cup piece which is vulcanized at the point of switch insertion.

gg A metal strap H6 surrounds the rubber sheathed switch and provides arms projecting downwardly and supported on a cross or pivot pin IIB xed in arms H9 extended upwardly from a diaphragm clamping ring |20. The

a switch is tilted or actuated through a vertically disposed shiftable lever |2| fixed to the arms of the strap ||6 by means of a cross pin |22 at its upper end in the same plane with the pin H8 and attached to the diaphragm at its lower end.

w The lever |2| is U-shaped. The rubber diaphragm |23 is engaged on a shoulder I2@ formed at the base of the chamber and thus divides the chamber. This diaphragm is held in position on the shoulder by means of the ring fixed in position in the casing by screws |25. Centrally disposed discs |26, |25, are provided lying against opposite faces of the diaphragm and coaxialli7 disposed relativ@ thereto. An extremely small bore runs through the screw |20 for the purpose of providing, in this screw,\a gas vent |21. This screw extends through'the metal discs |25 and diaphragm |23 and the cross bar of the U- shaped lever |2|. The entire assembly is-maintained by means of a nut |29 screwed onto this gas vent element |20.

A coil spring |30 is disposed in the bore of a boss |30a in the bottom of the chamber for supporting the diaphragm at the center and, when the switch is oif, assuming that the pressures on the respective sides of the diaphragm are equal, normally maintains the same in uppermost position. The spring assures the opening of the circuit to the agitating device when the pressures are balanced. An outlet |3| is provided extending transversely from the bore of the boss |30a of the chamber at the underside of the diaphragm and having the tube section 29 attached thereto by means of a coupling |32. As' the pressure drops below the diaphragmrthe gas at line pressure moves the diaphragm'downwardly, tips the mercury switch through the lever, establishes the contacts and starts the agitator device. Normal- 1y the gas pressures are equalized on either side of the diaphragm by way of the small bore in the 70 operation ensues.

phragm, elevation of the diaphragm returning the mercury switch to reversely tilted position 7g where the contacts are not established. As long center of the diaphragm. Sudden drop of pres- Operation of the agitator will continue until the pressures havebecome equal-v ized by way of the passageway through the diaas the water will continue to absorb the gas comingthrough the vent in the diaphragm the motor will continue to run. It is only upon failure of the water to take more gas and the building up of gas pressure above the water that the diaphragm will be returned by the spring because of equalization of pressures and will stop the agitator motor. I

It will be noted that the control leads, extended from the switch to the motor, also pass through a rubber button |33 supported in a plate |34 forming a lid for a chamber about the point of entry of the leads into the central device. 'I'his forms a further seal and prevents twisting of the leads at the point of entry into the centralvdevice.

Any number of syrup tanks 24' may be employed. In the present instance there are four. Three of these are shown with the lids removed and the fourth with the lid in place. The syrup containers may be in the form of glass jars. To secure them in place, clamping plates'l35 are provided, extended in parallelism and secured to the respective ends 'of the cabinet. Spacer and clamping rods |36 are extended between these side plates, the rods being rubber encased and disposed between the respective glass jars.

The dispensing devices for the jars being the same, the following description will be directed to lone only.

Imgeneral, each unit includes a measuring device incorporating a cylinder |38, a piston |39, and an operating rod |00. This measuring device is in communication. with a mixing and carbonated water delivery assembly ll, the gen- A. eral nature of which is tubular.

The mixing chamber is in the form of a long tube |62 secured through the forward wall of the cabinet. It in cludes a ange M3 lying against a rubber pad M@ engaged against the inner face of the forward wall of the cabinet.

Between this mixing tube |62 and the carbonating tank 23, a valve controlled outlet `tube |45 is provided. This tube M5 is screwed onto the inner end of the mixing tube against a packing |46 and has its inner end lying against a packing |01 disposed against a forward 4face of the carbonating tank. A portion of the tube |55 extends into the carbonating tank. The associated tubes |02, |65 are secured in position by means of a nut |08 onthe extreme inner screwthreaded end of the tube M5 engaging a U- shaped element |59 straddling the tube and contacting the inner face of the carbonating tank. This valve controlled outlet tube is counterbored f to provide a. shoulder |50.

The lvalve seat element |5| is tubular and into l' cludes an annular iiange 52, lying against this shoulder |50 and held in position thereagainst by means of a screw plug |53. 'I'he valve |54 employed in this case comprises a sleeveslid'ably mounted in the main bore of the unit and 'including an inturned annular flange at its forward end. A disc or contact element |56 for the valve is secured against thisv flange by means of a screw plug |51. A coil spring |58, under compression between a second shoulder |59 of the bore and the valve unit, maintains thervalve against the tubular, seat element |5I. y

Spirally laid grooves |60 in the bore of the tube |45 adjacent the sliding valve element pro-l is in communication with the spirally laid grooves at all times. Ample clearance is provided, between the inturned flange |55 of the valve elevment and the tubular valve seat element |5|, to permit flow of carbonated water from the inner end of the spirally laid grooves therethrough and to the region of the valve seat.

The valve is unseated by means of a long actuating rod |62 in contact with the same and slidably mounted through the tubular valve seat element |5| and bored plug |53. This rod is actuated by means of a lever |63 at the outer end of the cabinet. To provide for flow lof the carbonated water after passage betweenl the seats, the rod |62 is diametrically slotted from its inner end to apoint beyond the plug |53 as at |64. The bore |65 of the mixing chamber is tapered, enlarging toward the forward end. Its inner end is of slightly larger diameter than the rod so that the carbonated water can pass from the slot |64 into this tapered bore. y

Immediately above the mixing tube, the cylinder |38 of the syrup measuring and delivery unit is mounted. This cylinder includes heads |66, |66 at the respective ends, which parts are secured together by means of screws |81. The syrup container 24 includes a nipple |68 held in position through the bottom of the container by means of nuts |69. The lower end of the nipple is flanged and a packing |10 is secured between the flange and-one of the nuts. The packing projects beyond the headed end of the nipple and provides a seal for the nipple when the removable container 24 is lowered into its bracket. The packing is engaged in a tapered bore |1| of a passageway |12 formed laterally in the rear head of the cylinder. v

The rear cylinder head includes an axial extension |13 from this lateral passageway |12 entering the cylinder and controlled by means of a check valve |14. The piston |39 provided in the cylinder is operated by means of the piston rod |40 extended through the other head of the cylinder and appropriately sealed therein by means of a packing gland |15. A piston ring |16 is included in the piston. Valves |11, |11 are also incorporated therein; The outlet from the cylinder is at the for-v ward end thereof and extends laterally by way of a nipple |18 incorporating a valve |19, the nipple entering a lateral passageway |80 of the mixing tube |42. The valves employed are'all of the same construction. 'I'he valve elements proper are cup-shaped discs |8| held against the respective seats by means of tension springs |82 attached to cross pins |83 in the passageways.

-The forward movement of the piston dischargesthe syrup from the.cylinder since the 50 valves |11, 11 in the piston close and the valve |19 in the nipple |18 leading to the mixing chamber opens. At the same time the valve |14 in the head controlling the passageway from the syrup chamber opensl and the suction action of the piston is effective for drawing in another charge of syrup in back of the piston. The return stroke of the piston closes the valve |14 in the syrup passageway and opens the valves |11 in the piston, whereupon the charge moves from the back of the piston to the forward side for delivery to the mixing' chamber upon the next forward movement of the piston.-

A screw |84, extended through the cabinet wall into the forward cylinder'head, holds these parts rigidly against the. forward wall of the cabinet.

The faucet 22 is secured to the front of the cabinet by means of thescrew |84 heretofore described. This faucet 22 telescopes over the ex- 5 tended end of the mixingA tube and includes the usual downwardly extended discharge spout |85. The operating rodv |40 for the syrup measuring and discharging piston is sectional. The main part |86 extends through the packing gland |15 yloA and is jointed intermediate its length outside the gland. The joint consists of a tongue and groove connection |81. A pin |88 is fixed in the tongue diametrically in relation to the rod and projects into longitudinal slots |89 in the arms of the '15 grooved rod so as to permit relative limited longitudinal movement of the sections. The outerr end of this rod is screw-threaded and has a headed sleeve section |90 screwed thereon.

The lever |63 is pivoted on the faucet and ex- 20 tends upwardly having the outer end of the sleeve section |90 of the piston operating rod |40 piv-r otally attached thereto by means of a cross pin 9|,. The headed inner end |92 of the sleeve section |90 (see the details of Figure 13) is held 25 against an adjustment n ut |93 screw-threadedI on the rod by means of a clamping ring |94. The head ts in an annular recess |93- of the nut and the clamping ring is held against the head by means of screws. |94?. 30

The sleeve |90 includes a radially extended pin |95 having its innervend engaged in the longitudinal slot |96 in the screw-threaded end of the operating rod. Accordingly, upon loosening of the screws |949, the adjustment nut can be ro- 35 tated on the screw-threads of the rod for changing the longitudinal position of the sleeve in relation to the rod section |40. Thus it is possible to vary the length of the operating rod |40 or the position of the lever or handle |63 with rela- 40 tion to the piston |39.

` The outer end of the valve operating rod |62, which passes through the mixing chamber, includes a screw-threaded outer end |91 carrying a bushing |98 which bushing is in turn supported 45 -in the bore of the faucet and through a rubber spring pad |99. The rod |62 may be adjusted l longitudinally in the bushing |98 for controlling flow of carbonated water being formed for this purpose with a slot in its outer end in which a 5u screw driver may be inserted. The bushing includes a head 200 which has a transverse split 20|, the portions of which are drawn together by means of a clamping screw 202. The screwv draws the portions togetherv transverselyof the 55 threads of the rod and clamps the rod` 62 against longitudinal and rotative movement.

A spline means is provided for preventing rotative movement of the rod |62 and bushing or contact element |98 in the form of a pin 203 in 60 the faucet projecting into a longitudinal slot 204 'in the head of the element. The head 200 ofthe element bears directly against the compressible pad |99, thus permittingv a limited amount of longitudinal'movement, suflicient to unseat the 65 valve. The pad acts to return the element to normal position when the handle returned. This movement is imparted by means of an arm 205 frictionally vilxed on the pivot shaft'206 for the operating handle |63, the shaft being xed 70 to the operating handle. JThe frictional attach-A ment is accomplished by means of a rubber bushing 201 about which the lever is clamped, enabling operation of the rod through the lever until a certain-pressure isereached, at which time 75 which serves as an abutment for the operatingA arm 205 when the operating lever for the i'aucet is returned.

The rst phase of outwardmovement of-the lever from the position shown in Figure 10 does not ailect the position of the syrup dispensing piston because of the slotted connection with the v tongue and groove portions oi' the rod sections. The movement thus permitted is effective for opening the water valve. It is thus `possible for the operator to dispense carbonated water without syrup. However, for dispensingl a single drink the operator swings the lever the entire distance, in the first phase, opening the carbonated water valve and, in the second phase, discharging a measured amount of syrup into the mixing chamber, into the stream of carbonated water passing through the mixing tube. 'I'hus the ingredients are thoroughly compounded and mixed in the process of delivery through the faucet.

If the operator wishes to add further carbonated water other than that brought about during the forward movement of the handle he continues to holdkthe handle in its outmost position, it being apparent vthat the V`valve for the carbonated water will continue to remain open as long as he does not release the lever.

.A drainage and support tray s'is secured to the part of the cabinet below the faucets. This tray includes a sloping surface 2id. A drain pipe EN depends from the lowest point of the tray. A grill M2 for supporting the glasses is' provided, countersunk in the tray over the inclined surface thereof.

Since ice is packed in the cabinet about the carbonated water tank, syrup tanks, and water cooler coil, it is necessary to provide for drainage of the water resulting from melting' ice. For this purpose an overnow pipe 2id is provided extended upwardly into the cabinet through the oor thereof. The outer' end of this pipe connects to 4the drainage tray 289 adjacent the lowest point of the sloping surface thereof.

Having described my invention, I claim:

l. In a machine of the class described an apparatus for carbonating water, lcomprising, a tank for the water, a water supply conduit connected .to said tank, a oat controlled vvalve controlling the ow of water from said conduit into said tank and the water level therein, an agitator device mounted on said tank and extended below the water level thereof, a source of carbonicgas supply, a conduit extending from said supply to said tank, a motor for driving the agitatordevice at a constant speed, and a gas pressure controlled unit in said gas conduit for controlling said agitator driving means. i

2. In a machine of the class described, an apparatus for carbonating water, comprising, a tank, means for maintaining av certain amount of water in said tank, means for agitating the water, a motor for driving said agitator means at a constant speed, a gas supply conduit connected to said tank adapted for constantly supplying gas above the water in the tank, and a gas pressure controlled device in'the gas conduit for controlling the operation of the agitator driving means.

3. A. water carbonating apparatus for use in a dispensing cabinet, comprising.- a water tank supported in said cabinet, a water supply conduit extending into the cabinet and to the tank, said water conduit including a cooling coil disposedwithin the cabinet, valve means in said conduit at the point at which it enters the tank, saidv valve means controlled by the water level in the tank for maintaining the level, a'carbonic Y gas supply conduit extended to said tank, an agitator means, power means for driving the agitator constantly at a speed sufcient for fully agitating the water, and a gas pressure operated control means for the power means effective for stopping the agitator means when the pressure in the tank over the water equals gas line pressure.

4. In a carbonating apparatus, a tank for carbonating water, a water supply conduit for delivering the water to said tank, ow control means for controlling the delivery of water to the tank to maintain a water level therein, an electrically driven agitating device mounted on the tank, a gas supply conduit extended to the tank, a control unit incorporated in the gas conduit including a mercury switch and a pressure responsive diaphragm for operating said switch including a passage way for constant passage of gas therethrough at a restricted rate of flow, and electrical wiring extending between the agitator device and the switch.

5. In a carbonating apparatus, a Water tank, electrically driven agitating means for agitation of the water within the tank, means for supply' ing water to the tank and maintaining a predetermined level, a carbonio gas supply conduit extended to the tank, a chamber embodied in said conduit, a diaphragm in said chamber in.

terposed between sections of the conduit, said diaphragm including a gas flow aperture permitting restricted flow'oi gas, a switch operated by dilation of said diaphragm, and electricalleads connecting the switch and electrically driven agitating means in circuit.

6. In a carbonating apparatus a water tank, a

lid for said tank, said lid incorporating an agi-` tator device depending into the water, a motor for driving said agitator device, a water supply conduit connected to a passageway in said top extending therethrough, a valve in the passageway, a float for opening and closing said valve, a gas supply conduit connected to said top and a motor control device disposed in the gas supply conduit, operative for starting the motor whenl vthe gas pressure over the water in the tankis less than the gas supply pressure, and stopping the motor when the gas pressures aforesaid are equal.

7. In a carbonatng apparatus, a carbonating tank including a water connection and a gas connection thereto, valve means for'controlling the supply of water to said tank, agitator means for agitating the water for impregnating the same with gas disposed above the water, a motor for driving said agitator means, means for withdrawing water from the tank, and control means for the motor for'the agitator means disposed in the gas supply and operated by differential between gas pressure in the line and gas pressure above the water.

8. In a carbonating apparatus, a tank for gas and water, a water supply conduit extending to said tank and including a cooling coil,I an

agitator means in the tank, control vmeans for the water-supply conduit for maintaining a predetermined Water level, a gas supply conduit connected to the tank,withdrawal means for removing carbonating water from the tank, a control'unit incorporated in the gas supply conduit including a diaphragm, one side of which is subjected to the pressure of gas ,within the tank and the other to line pressure, la small orice through said diaphragm permitting restricted flow of gas therethrough, and a control device operated by said diaphragm when the diaphragm dilates due to diierential in pressure at the respective sides thereof.

9. In a carbonating apparatus, a tank. a conduit for delivering water to said tank, means for controlling the delivery of water to the tank for maintaining a constant level therein, an elec- .device when the gas pressure over the water in 1U the tank equals line pressure.

JOHN T. ROWELL. 

